Method of producing storage batteries



March 16, 1954 H. c. BURNS ETAL 2,672,497

METHOD OF PRODUCING STORAGE BATTERIES Original Filed Feb. 7, 1947 m A w mm mil? l di 70 l INVENTORS.

Howard C. Burns 72 Harland D. M/f/s on BY #7 5 247 mgfianl ATTOR/Vf/S Patented Mar. 16, 1954 METHOD OF PRODUCING STORAGE BATTERIES Howard 0. Burns and Harland D. Wilson, Toledo,

Ohio, assignors to The Electric Auto-Lite Company, Toledo, Ohio, a corporation of Ohio Original application February 7, 1947, Serial No. 727,080. Divided and this application August 15, 1951, Serial No. 241,966

6 Claims. 1

This invention relates to storage batteries and, in its most specific aspects, to means and method of providing a seal between the container and cover therefor, and is a division of our application Serial No. 727,080, filed February 7, 1947.

The invention comprises the provision of a storage battery suitable for use under extremes of temperature and vibration, the battery being capable of withstanding, without impairment, extremely high or sub-zero temperatures and abrupt changes from high to low temperatures, or vice versa, and not being affected by violent shocks and severe vibrations, conditions which are found when the battery is used in aircraft, farm tractors, trucks and also military vehicles such as tanks and the like.

The invention embraces the utilization of the heat generated in the chemical and electrochemical processing of a storage battery to produce a substantially permanent, hermetic seal, and acid-proof joint between storage battery covers and container.

The invention includes the provision of multiple or single cell storage batteries which may be hermetically sealed and indefinitely stored, either in the dry charged, or in the moist charged condition.

The invention comprehends the provision of a cementitious compound which is processed to effect an electrolyte-tight, vibration and temperature-proof substantially permanent seal between battery covers and container, either as a result of the formation of the battery or by a method which in no way interferes with the processing of the battery or impairs any of its component parts.

lleretofore wherever conventional batteries are subjected to severe service conditions, such as high temperature, severe vibrations, extreme sub-zero temperatures, or sudden changes from such low to high temperatures, the first component of the battery to fail is the sealing compound. Failure of the sealing compound to maintain an acid-tight joint between the covers and the container causes loss of electrolyte and finally failure of the battery.

The conventional sealing compounds for'storage batteries now in use are essentially thermoplastic in nature, generally in the form of a steam-blown asphalt or having a bituminous or petroleum base and hence their sealing action and hardness are governed by the temperatures to which they are subjected; Battery seal failures occur at high temperature because such sealing compounds will soften to the extent of running down into the cells and also blister due to gas pressure within the cells. Under severe vibration, seal failure is usually caused by the loss of adhesion of the compound to the sealed surfaces or by cohesion or contraction cracks. Battery seal failure is more readily manifested under vibration, coupled with high temperature, due to severe blistering, cohesion failures and loss of adhesion of the compound to the container and covers. Under extreme sub-zero temperatures, the battery seal fails because the sealing compounds become very hard and brittle forming cohesion or contraction cracks; in addition, seal failure is caused under sudden changes in temperature, such as from sub-zero to relatively high atmospheric temperature, due to the formation of cohesion or contraction cracks.

The aforesaid performance failures of present day storage batteries are attributed mainly to the fact that the conventional sealing compounds are thermoplastic and do not form a temperature-proof or acid-tight rigid joint be-v tween the battery covers and its container.

It is one of the main purposes of this invention to overcome and cure the aforesaid storage battery performance failures through the provision of a low-cost, very effective, acid-resistant, temperature and vibration-proof seal or acidtight rigid joint between the battery cover and its container. The seal or bond of the invention is obtained by the use of a thermosetting resin or cementitious compound which is set or cured by the application of moderate heat for relatively short time and hastened by the addition of suitable accelerators. The compound is processed to effect the seal without the employment of complicated equipment, skilled operators, or time-consuming operations.

One of the principal objects of the invention resides in the production of a battery having a cover adhering to a container through a permanent, thermosetting cement, more particularly in providing a unitary cover for a multi cellular container wherein every cell is completely isolated by joining the cover to the container through a cemented thermoset connection extending about the perimeter of each cell, producing thereby a permanent, acid-tight. temperature and shock-proof seal therebetween.

Another object of this invention is to produce a seal between a storage battery cover and its container-"by a liquid phenolic casting resin or composition of the thermosetting class, set or cured at relatively low temperature and pressure to provide a substantially permanent bond or electrolyte-leakage-proof joint between container and cover.

Another objectcof ttliis: invention; is-to produce a storagebattery' having a cover attached to the container by a bond or seal obtained without the use of expensive or complicated equipment and being at least as strong as thezmaterialrfrom. which these parts are formed, which seal, electrolyte-proof, will neither -shrink, swell, nor crack under the combined "action ofteiitremesbf temperature and vibration to'whichitheibattery may be subjected in use.

An additional object ofiitheiinventiomis' the provision of a one-piece cover::for a-'multiple cell battery having either under-the-cover or external intercell connectors, and the production of a permanent bond or seal between the container and cover by athermosetting resin cement preferably in an: interlocking 'connection'such'a's a tongue-and groove' arrangement :of the container .walls*'and 'cellpartitions with'the under side of .the coverr'or'a'double flange cover construction as well asia roughenedsubstantially flatsurface"joint betweenthe cover and container.

A further. object of" the .invention is the provision of a novel and veryiin'expensive methodof sealingthe battery cover.1to its container by'applying a phenolic casting resinmixedwithsuitable acceleratingagents asbondingmeans and solidifying or setting such bondingmeans bythe heat. inherently. generated in ;the :chemical 1 and electrochemical processing of the battery.

Anadditional object .of this invention is to provide affully and completely sealed batterywith readily removable seals'forthefilling vent plugs, whichvent plug sealsmay readily. be removed. at the time thelbattery is, placed? in, service.

.AQfurther object attained'bythis invention is the use of a sealing means whichis capable of bonding-not.only'.component parts of a storage battery .made .ofj-the. .same, .or .similar material, such. as. hard. rubber, or other molded, non-conductive, acid-resisting.material, but. also of producinga permanent .seal or bond; between nonconductive, acid-.resistingmaterials and a. metallice current-conducting.:material, such as .antimonial .lead 4 used as cell interconnecting -means, without .the; application of excessive pressure .or high temperature.

.Other objects andadvantages of this: invention relating to the arrangement, materials, and methods, operation and function! of r th related elements of the structure, .to various details of construction, to combinations of :parts and to economies of manufacture -win bezapparent to those skilled in the art .upon consideration of the following descriptionand appendedclaims, reference being had -to the.--accompanying drawings, formingapart: of this specification wherein like reference characters -.designate. corresponding partsintheseveral.views.

Fig. .1: isga-plan ,view rofc-aastorage-;battery, parts beingbrokemawam-to showieaturesofi the invention herein;

.Fig. 2- is a view on the linen-+11 Fig. 1;

Fig. 3is a view entire line -.IIIIII Fig. 1;

Fig.4 is a bottomplan viewof acover for use with.asinglecontainer; three-cell battery and ,Fig. .5 is-.=a-.fragmentartesection through the. up.- pen-edge ofeaestoragebatteryofihe moreaconrentional design embodyingaeasseal;ofxtherginv n iicn herein.

In the drawings, for purposes of a typical iilustration, the features of the invention are shown as incorporated in a storage battery of the single container, "three-cell type. construction, generally .usediinzself-propelled vehicles :but it is to be understood'that'the utilization of the invention is contemplated wherever the same may be found to be applicable.

,iInzthezembodin-ient illustrated, the storage battery. comprises, as particularly shown in Figures .1. and 2,,amulti-cellu1ar container H) of suitable nomenrrerit.v conducting, electrolyte 0r acid-resisting material. .The container I0 is formed or molded from any composition having such characteristics;preferably hard rubber or synthetic -:resirr:plas'tics;;and is divided into battery cell com- "partmentsl2by'partitions M. The artitions M i ares-shown as integral parts of the container and may be one or more innumber, thus providing thedesired. numherof battery cell compartments forproducing a battery of predetermined voltage. Thebottomof. each cell compartment 12, as illustratedin; Figure .3,. is provided with spaced, ,upstanding.- narrow ribs I 6..formingelement rests or bridges which define sediment spaces 18 on-the bottom of the-container Ill. .Thenarrow ribsor bridges l6 act as supporting. means for. each. cell element 20, the. latter. beingrprovided with .post straps-2 I and: 2 2 for thesrespective negativeand positive plate-groups arranged alternately .with suitable separators in thensual-manner.

The storage battery shown inthe drawings comprises three-cell .elementsiin which the. negative and positivepost straps 2 and 22- respectively of the elements of othe two outer cells are provided with terminal posts 23 and 2413f similar configuration projecting voutside of the container 10, while the other. poststrapsof-each of these cells are connected to .the post .straps orv the central cell by'cencealed: intercell connecting means 25 which arefiush with-.thettopof the partitions l4 and hence do not project outside-of the contamer-l0.-

Thapartitions-il are provided with suitable lead ninserts --26 :embedded therein and having a suitableltransverse.groove"adapted to allow the flow of lead for joining the post-straps of. adjacent :battery cells when"the;interce1l connection is carried out by thelead-burning or welding operation; :By' this=arrangement; and :through the seal'of the'invent-iom'preferably by. grooving the weld as a continuation of the groove'in thetop edge ofthe partitions I 4, as hereinafter described, each' battery cell can be completely isolated from theiothers 385M131 creeping or seepage through the intercell connectors or cell interconnectingmeans 25iisceliminatedxdue:torthefact that the post straps"an'diinsertszli formanintegral structure, as particularly-shown: in'Fig. -2,' which also forms an part .cf tlre;acid-'tight joint of: the: invention.

:The. upstanding :walls of; the: container HI'are preferably provided with. aatopendr surface, normallynonitheysameclevel and being interconnected withthegupperqedgesnf.thapartitions l4, forming thereby;a-icontinuousruniplanantopsection .2 1. extending about the perimeterfzofieachzcell.

A .feature .of; theniIiVentiohisztheprovision of apreformed unitary; cover :30 i (see :Fig. '4) forthe battery'container- IUj bridging-the cells regardless-cf theirinumber. The cover 30 is preferably madesof noneiconductive,;acide-resistant;material or molded "composition-z: sncl'rsaszharrl rubhennr :othemsyntheticzresin plastictand istprovided'swith tsnitableccpeningszaliandiitzszaxiallycofiwhichthe {:5 terminal posts 23 and 24 may extend to receive suitable external circuit connections, not shown, for the energy storing means which are housed by the container. The openings 3| and 32-of the cover are provided with reinforcing bosses 33 carrying inserts preferably in the form of flanged antimonial lead bushings 34 which are of suitable dimensions in order that when the cover is put on the container Ill, the bushings 34 are in tight engagement with each of the terminal posts, so that during the lead-burning operation by the application of heat, fusion therebetween takes place, thus forming, in Welded union with the upstanding section of the post straps, an acid-proof and gas-tight connection for the terminal posts 23 and 24.

As shown in Fig. 4, the cover 39 is also provided with bosses 35 arranged to be positioned above each cell. The bosses are formed with suitable apertures acting as vents or electrolyte filler openings 38. The under side surface 38 of the cover 30 is molded for effective and complementary contact with the container uniplanar section 21 which extends about the perimeter of each cell. In the production of the molded cover 30, strength is imparted thereto by suitable reinforcing ribs 39, preferably formed on its underside surface and adjacent to the vent and terminal post openings so as to prevent possible distortion of the area adapted to be in contact with the container walls and cell partitions.

The cover 30 is adhered or rigidly secured to the container II) by the substantially permanent bond or seal of the invention which completely isolates each cell by joining portions of the under-side surface 38 of the cover to the uniplanar surface 21 of the container [0 and partitions l4, thereby forming a bonded connection about the perimeter of each cell, thus producing a substantially permanent, acid-tight, temperature and vibration-proof seal between the container and cover.

The seal or bond 40 of the invention is obtained by the provision and use of a binder or sealing agent of the thermosetting type in the form of a thermosetting resin or cementitious compound preferably of the phenolic class, which binding agent is set, cured, or solidified to produce adhesion of the cover and container by the application of moderate heat and pressure for a relatively short time hastened by the addition of suitable accelerators. The substantially permanent seal between the container and cover is preferably secured by providing a suitable interlocking connection between the under side surface 38 of the cover 30 and the uniplanar top surface 21 of the container l0 and partitions M. The interlocking connection can be in the form of roughened, substantially fiat matched surfaces of container and cover, joined by the bonding agent 40, or in the form of a double flanged cover adapted to receive the container top end walls and partitions as well as other suitable well known types of interlocking connections, the illustration of which is not deemed necessary.

The preferred interlocking connection .44 in the embodiment illustrated in the drawing is in the form of a tongue-and-groove joint. In Fig. 4, the cover is illustrated as formed with a tongue 46 which may be integral therewith, the same be-- ing so placed as to provide an interfitting arrangement with a groove 43 which may be made or formed on the uniplanar section 21 of the container and partitions M as particularly shown in Figs. 2 and 3. However, it is contemplated that this tongue-and-groove arrangement may be reversed, so that the tongue may be integral with the uniplanar section 21 of the container and partitions and the groove being formed on the under side of the cover 30. In the embodiment of the invention, the retention of the bonding agent for sealing the cover 30 to the container in is enhanced by having the groove 48 uninterrupted not only about the perimeter of the container and across the partitions 14, but also about the cell interconnecting means 25, while the tongue 46 on the under side of the cover 30, which is adapted to fit into the groove 48, is also made continuous throughout the corresponding area of engagement, so that a very effective joint or interlocking connection of cover and container is obtained.

The seal or bond 40 is preferably obtained by thoroughly cleaning the surfaces to be sealed and by filling the groove 43 with the plastic bonding agent of the invention, or by coating the tongue 46 and the surface of the cover adjacent thereto, or by an application of a coat of the liquid seal or bonding material to the matched or interfitting surfaces of container and cover forming the interlocking connection 44, following which the cover is pressed into assembly and the seal or binding agent is cured or thermoset to provide the final bond 40.

In the application of the thermosetting liquid resin of the invention, it is very desirable to clean and roughen the complementary or mating surfaces of container and cover forming the interlocking connection 44 such as the tongueand-groove joint of the container and cover by sand blast, scratch brush, or the like, which not only removes any parting compounds employed in the casting or molding of these battery parts, but provides a surface more susceptible for bonding. This roughened surface may also be obtained by direct molding but the same should be cleaned, preferably by sand blasting, for best adhesion to the resin cement.

The sealing compound of the invention is a ,phenolic thermosetting casting resin, preferably in liquid form, which, without the use of complicated equipment, skilled operators, or timeconsuming operations, can be set or cured by the application of moderate heat, as well as heat and accelerators. The thermosetting phenolic casting resin is of a type which has a specific gravity from 1.12 to 1.27, preferably 1.25, has no tendency when thermoset to cold-flow, does not burn readily, and is white opaque in color, and can be set or cured by the application of moderate heat, as well as heat and accelerators.

The thermosetting resin or cementitious compound which produces the seal of the invention can be cured or permanently set without pressure or accelerators when baked at about200 for relatively long periods of time, such as 24 hours. Moreover, such resin is more reactive or readily set in a shorter time and at lower temperatures by the addition of suitable accelerators. In practice, it was found that by the addition of about 8 per cent of an acidic accelerator to the resin. the mixture can be set or solidified to provide an effective bond between the cover and container when baked at a heat of 175 F. for three hours or when baked at F. for sixteen hours. Moreover, many combinations of temperature and heating time can be used and the resin or cement of the invention can. be set or cured at room temperature in relatively short time byv the addition of higher percentages of the accelerator. While the method of producing a liquid phenolic 7 resin isv-vvell knowna in the art, 'having been desci i-bed' in -the chemical literature, =ior a-purpcse or illustration onlypand notby way of limitation, a liqui'w-phenolic*resin,- suitable'Tor carrying out the-present invention; may consist: of the reactionproduct of' 'formaldehyde and phenol using relatively high 'mol- 'ratiosbi Iformaldehyde to phenol reacted under reflux conditions in the presence of a rsuitable- 'fixedcatalyst, preferably alkalineto promote resinification ofthe two materials. 'Ihe catalystmay be neutralized by the use of .eitheran inorganic acid such' as hydrochloric-or organic acid suchas lactic acid after the formaldehyde-has been consumed. The mass is :preferably subjected -to proper condensation and dehydration steps to obtain the proper viscosity or consistency. iResins typical of this class, possessing the characteristics; herein-specified for the 'rbonding'agent of the invention,v are on i the market and a are commercially designate'd as =Durez Ca-sting: Resins 7421 andM-ZIA made by Durez Plastics & Chemicalsfilnc. Ithas i been ioun'd that such resinsare' very suitable and: proyide an excellent 'seal'when'the materials em- D'loyed in the: container and. cover are hard rubbers,1aithough; with: other molded compositions, the-"same have. proven satisfactory.

Another material improvement secured by this invention: resides in the utilization of the heat generated during the chemical and electrochemicalprocessing-ofthebattery to secure the setting of theliquid phenolic seal'resin of the invention to' -thereby produce a'bond or seal between'the cover-and 'containeryithat' is, the heat generated when thedeveloping-acidKor electrolyte is added 3 to the cells and the "charging of the cells. Suchrheat issufiicientto'bringor set the bonding agent which is in contact with the container and coverto "its full strength within the time re quired: to develop the batteryxcells to their fully formed and-chargedcondition, thus avoiding the application of external-'heat'and of other additionaltime-consuming operations.

"This-phenolic, 'thermosetting liquid casting resin of the inventionmay have various treatments to accomplish certain desired results. For example, an accelerator mayrbe added to decrease the length of time necessaryto complete-the thermoset; It has "been'found that a suitable accelerating compound is one containing approximately'a 50 per cent solution of phosphoric or-of hypo-phosphorous acid such as" the one commerciallyt available'and" designated-as Durez accelerator17422,made'by'Durez Plastics "8r Chemicals, Inc. Amounts'of'theaccelerator mayvary to rmeetnesired conditions and "may run inthe Percent by weight Durez 7421Aliquid resin 90 Durezf'7422 accelerator 8 "Denatured-'alcohch I 1".5 iNnbianfiiBiackfidyet."mu"-cl *5 Mix the 7421A liquid res and 7422' accelerator 8 togethemthcroughly;#then addahe alcoholito:this composition do-tnot stirtbut letxthe alcohol 'remain :on thesurfaceuntibthedye is-ad'ded; then mixgthoronghly. The alcoholiwets the dye and carries it" intoso'lutionvery quickly, otherwise a longer a'periodof stirring is necessary to get-the dye a'into' the i resin solution. The mixed xresin prepared'for use should beskept at a temperature of 70F. or slightly: less to prolong its. bonding: or glue life, and preferably no more than .3'-hours, supply of resin-seal should be made up rat one time, otherwise the mixture -..maybecome too viscous -for effective application to .the battery parts.

A storage battery embodying the seal .andithe bonding agent of thezinventionxfor adheringi-the container: and its covering means can be produced with a'high degree of: effectiveness by employing the following procedure:

Sand-blast or steelgrit' blast, just priorztoas- 'sembly, the seal surfacesforming the interlocking-connection ll of both-the hard rubber; container and the one-piece cover'such as thertongue 46 and the-groove t'a shown. The sand orxsteel particles 5 blasting "should be sufiicient to obtain roughened-surfacesbut not severe enough to damage the "hard rubberparts. After thegrit blasting or surface rougheningoperatiomremove the dust from the-coverand container, preferably by blowing the dust away with. compressed air free of moisture.

Assemble the cell elementsj2ll inzthe-compartments l 2of the container l0; placing the element posts 2| and 22'in proper'positiontior alignment with -'the-0penings--3l and-32 of the cover 30. If concealed intercell connectionsneareused, perform the lead-burningand then grooving: operation for the intercell connecting means.:25. The seal groovedB and'the uniplanar surface 2! :after theseoperations should be cleaned and kept clean and dry.

Fill the groove 48 on top of the container approximately full of the bonding agent or resin sealingcompound of the invention-prepared as outlined in the specific example given above. Spread thebonding agent or seal resin over the uniplanar surface-'21 ofthe container by the use of a suitable tool, such =asa brush, to securea goodcoating thereto.

Heat'the surface roughened or sand-blasted and clean cover 3Bup to 150 F., then place the same on top of the battery containersub-assembly and immediately apply moderate pressure to hold the cover inpositi-on. If any sealing compound exudes between the cemented joints,*wipe it 01f by an alcoholydampened cloth. In order to avoid the possibility .lOf relative "displacement of the container and covering "means, as wellas to firmly hold the cemented joints together; the use of an .antimonial lead weight of. about 15 pounds has been found very .effective. This weight should have. a configuration suitable to exert pressure over the areas where the covering means joins the. container land partitions it without interfering ,with; the post. or. connector-burning operations .as well, as with thejelectrical connections otthe source of energy used. for the formation oithebattery plates.

After the weight and cover are in position on thecontainer, efiect thelead-burning or the sealof'the posts 23,,and124 to the cover bushings .44., -In case exposed int rcellcnnnectcrsarc used the; leadeburninaoperation tolproduce thesextetnalzwelded ccnnectionsshouldibacarriedout;

Fill the battery cell compartments I'2 with "de- 9 veloping acid, preferably in a suitably ventilated and temperature controlled room, wherein the air temperature is maintained for satisfactory efiiciency above 60 F. Connect the terminal posts 23 and 24 to a suitable source of electric current for the electrochemical formation of the battery plates. The temperature of the acid within the container should be maintained, by suitable control means, between 120 F. and 130 F. during the initial stage of electrochemical for mation of the plates until the resin or sealing compound of the invention undergoes the polymerization or thermosetting which is accomplished within a 16 to 24-hour period when an accelerator is used. Following this time period,

the temperature of the acid may be permitted to drop to a lower temperature value for the cempletion of the electrochemical formation of the plates. The heat generated by the formation of the plates and the time period during which the acid within the container is maintained between 120 F. and 130 F., are created and controlled conditions, with respect to temperature and time, by means of which the effective curing or poly merization of the sealing compound of the in vention is accomplished to produce the adhesion or interfusion of the battery covering means and seal to its container. During the charging or plate-forming operation it has been found very advantageous to keep the weight in position on top of the cover 30, avoiding the application of any lifting force to the cover or accidental disturbance of the weight. On completion of the formation of the battery cells, the weight should be removed from the battery cover as the seal is completely set and the battery can then be handled in the normal manner for any desired additional operations.

The foregoing outlined procedure clearly indi cates that the present invention provides a cementitious, acid-resistant, insulating compound or thermosetting bonding agent which is processed or polymerized to produce the electrolytetight, vibration and temperature-proof, substantially permanent seal between a storage battery covering means and container as a result of conditions created by and within the battery and the time during which the electrochemical formation of the battery cells takes place. The polymerization or setting of the thermosetting bonding agent of the invention is accomplished by this invention through a very low cost process which in no way interferes with the normal steps in the processing of a battery or impairs in any way its efliciency or the life of the component parts. Moreover, by this invention the sealing of the covering means to the container is secured without the application of any external heatin means or the use of expensive equipment as well as additional operations which usually interfere with the normal assembly of the battery and increase its manufacturing cost and, therefore, the teach ings of the invention can also be carried out in the charging operation used in battery repair or rebuilding procedures.

The sealing agent of the invention, as well as the procedures before outlined to effect the bonding of battery containers and their covering means by conditions created during the formation of the battery plates, may also be used with batteries designed for the conventional type of seal using external intercell connectors and separate covers for each cell, such as the type shown in Fig. 5, wherein the cover 60 is formed with a peripheral depending portion 66 and with the lateral extension 68 resting on a ledge 10 of the container 12. The space above the extension 68, bonded by the container upstanding wall 13 and the cover portion 66, which is usually filled with the conventional asphalt type of sealing compound, is filled instead with the sealing agent #5 of the invention, or a seal preferably prepared according to the specific example herein described.

In order to produce at a very low cost the seal of the invention for conventional type batteries, 2. suitable filler is preferably added with the dye coloring mixture to the phenolic casting resin and its accelerator. Very satisfactory results have been obtained with fillers such as diatomaceous earth, commercially available as Dicalite, asbestos fiber or walnut shell flour, in amounts of 15 to 30%, according to the consistency desired in such a seal. To prevent the possibility of the resin running past the edges of the cover extension 68 into the cell compartments, it has been found very effective to first calk with a pasty mixture of liquid resin and a powdered filler, such as finely powdered asbestos or silica, the spaces or gaps between the extension 68 of the cover and the cell walls including the ledge 10 of the container 72. When the viscous resin with its accelerator, with or without filler, is poured on top of this stiffened calking mixture and heated during the plate-formation or cellcharging operation, the poured resin may become even more fluid before it polymerizes but the stiff calking material holds it in place until the resin hardens and bonds the cover 60 to the container l2.

When batteries are produced with the types of seal herein described, the bond between the cover and container is such that there is provided not only an acid-proof joint but a permanent, gas-tight seal, and therefore, batteries made according to the teachings of the present invention are susceptible to indefinite storage in a substantially charged condition. In order that a hermetic seal may be complete, means including removable or frangible elements are also contemplated to close the vent openings as well as the ports of the vent plugs normally employed in electric storage batteries. As shown in Figs. 2 and 3, the openings 36 of the cover 30 are normally closed by vent plugs 53 provided with suitable ports 55 in communication with the atmosphere. The ports 55 and any openings or cracks around the vent plugs 53 may be closed during the storage periods of the battery by placing temporary sealing means, such as a removable strip of non-porous adhesive tape 51, around the joint between the vent plugs 53 and cover, as well as completely covering the vent plugs ports 55. When the battery is withdrawn from storage, this adhesive tape 5'! is readily peeled from the cover and vent plugs 53, thus permitting removal of the plugs for filling the cells with the electrolyte as may be found desirable. With the hermetic seal between the multicell container and the cover, which isolates the individual cells, one from another, in conjunction with the seal for vent ports, there is provided a complete hermetic seal for the battery providing the advantages hereinbefore set forth.

The cover can also be provided with frangible means, such as disk closures for the vent openings, either molded as an integral part of the cover, or cemented in place to hermetically close the vent opening during storage. These disks are broken out when it becomes necessary to put the charged, batteryaintor zsenvicesby} adding electrolyte to.zthe .-cells.-

ItiiSvtO .-be mnderstoodtthat. the above.:detailed description. ofathe present ,invention Lisa intended to. disclose embodiments thereof-Jo those skilled inathe. art, but athattthe invention is not .,to.-,be construed. as 4 limited ,in its application to. the details of construction-and arrangement .of parts illustrated in the accompanying drawings-,.-.since the. invention-is? capable; of: being. practiced .and carriedtout} in :various ,wayswithout departing from -.-the::,-spirit. .oi thednventicn. The language usediin--thessnecification: relating to the. opera.- tion: and [function ioiethe, elements, ofthe inventionds-employed iorpurposes of description and not ofllimitationi whatlisiclaimedaanddt is desiredto secure by United States :Letters =Patent:

1...The@ method ofproducing-an electric storage battery including the-steps of placing between the battery-container and its: coveringmeans-a thermosettin s Phenolic iormaldehydevliquid caste ingiresin of a type-.-which-.hasi its primary, cone densation. with... a .fixed alkaline catalyst and solidifies:- .to.. its. cured state by: the application of moderate heat-.- in.- the presence ,of=,a liquid sulphuricacid. electrolyte, and of. controlling, and regulating the-temperature. .of.- theheat generated- -by 'the; 2' electrochemical. processing of. the .battery plates. to form the. plates and concur-.- rently polymerizing .the .thermosetting, resin pro.- .ducing arbatteryhaving,- itstcontainer. and GOV-.- eringemeans,permanentlyibonded. togetherc :2. 'llllzletstepsrinthe-method of. producing an electric storage battery which compriserthe-applicationbetweenitheh battery cover and .container. of 'a.-thermosetting,, phenolic. formaldehyde liquid; casting resin,- of the 1 class having a primer-5t alkaline condensation, ,andvgenerating. heat by.-: thetformation ofr the battery. plates for poly? .merizingeto hits curedsstate the thermosetting resini-for, permanently non clingethe, batterycover and container duringcthe plate-forming opera.- tion.

. 3. ,The method .oflproducing, anelectriestorage .battery including, ,cleaningand. roughem'ng the respective;.-.contactingtsurfaces oil a. container carrymggrbatteryplates, and its covering. means, .coatmge saidncontacting ys-urfaceswithe a liquid phenolic. formaldehyde. .thermosetting casting resin of..a class. a, which. has. high ,mol. ratio of -iormaldehydei-to phenol, and its. primary, condensationnnder reflux: conditions .with .a. fixed alkalinecatalyst pressing .theicontacting-surf aces mosetting resin to-its,;cured .stateby the heat generated during. the processing ot the. plates to .producea permanent temperaturerresistant electroly-te leak-proof joint. between covering, means andlcontainen.

4} The. method of. forming. apermanentumon between, an .openended .container, made .of hatd rubber. having ,separate compartments. for housingbattery elements vsurroimdedby. liquid eleee trolyte and, coveringmeans.-. therefor .cornpris: ing applying. about .the. perimeter. of each come partment between. the. container. andecoverin means. a thermosetting liquid. resin .of alclass which .is reacted to its. liquid,.state .in the..pres.-. ence of. an alkaline catalyst rnixed.with .an-acidic accelerator therefor, and generating heat .by the formation of. thebattery. plates for. solidifying to its cured. .state. the. resin bonding, the. battery coverand container. concurrently with .the plate.-v forming operation .for permanently-isolatingithe battery compartments.

5. The. methodotiorming a permanentunion between. the open end' of..a .container of;a.. liqu i d sulphuric acid type. electric storageibatteny and a covering. means. therefor. comprising placing between the. container and a the; coveringnneans a thermosetting,plastiecementitious viscous ma: terial. of a class. having a primary condensation to. its viscous. statei withl aim-acidic. accelerator, andv solidifying toits final. curedLstate. the viscous material by, the. heat generated .durin theelec; trochemical processing of the, batternplates...

.6. The methodof forming.,a.permanent, nion between the openendof a.contain er,of electric battery elements. surroundedlby, a liquid ,elec: trolyte. and covering meansthereior including cleaning and roughening. .their. respective con: tacting suriaces coating ,said;roughenedsurfaces with a.,liquid.. phenolic formaldehyde .thermo: setting resin. of a class which has;. its.,.priinary oondensationto. a liquid. state with alined. al.- kaline catalyst mixedcwithsanacidic accelerator therefor, pressingthe. contactingnurfaees.eithe covering means and container,into .engagement, and charging,.the battery. cells ,.for, thermosetting said resin to, its. final curedstate by the heat generated thereby...

I-IQW C.-.,BURNS HARIJANDEDMWILSONJW References. Cited in the. file .ofthis patent-z UNITED--.STATES "BATEN I S Number" Name Date 1 .508,847 Gi1lette= S,ept:I6,-: 1924 1,526;208 Gill- Feb.=-:.10;.1'925 1,784,216 Aldrich et-al. Dec. 9, I930 2,034,802 Frank-ct val. 24', 19.36 2,066,675" Dunzweiler Jan-5, 1-937 2,100,333 Hess Nov. 30;1937 2,132,186 Ramakers -Oct;:4; I938 2,501,995 Dillehay Mar 28; 1950 FOREIGN PATENTS Number Gountry Date.-

510,488 Great: Britain. :Aug;, 2, 193!) OTHER REFERENCES Modern Plastics byv Barron-,-19.45l Pages, 121- 136. v Pub]ishedlay.Wiiiesgtz sons lnc N. Y., N.,Y. 

